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The small-mammal community of a dry-tropical forest in central Thailand

Published online by Cambridge University Press:  10 July 2009

Susan Walker
Affiliation:
118 Newins Ziegler Hall, University of Florida, School of Forest Resources and Conservation, Department of Wildlife and Range Sciences, Gainesville, FL 32611–0301, USA
Alan Rabinowitz
Affiliation:
Wildlife Conservation International, New York Zoological Society, Bronx Z00, NY 10400, USA

Abstract

Small mammal live-trapping was carried out in a dry tropical forest mosaic in Huai Kha Khaeng Wildlife Sanctuary, central Thailand. Trapping was done in two forest types in three seasons. Maxomys surijer was the dominant species in both plots. The three most abundant species in each plot accounted for > 90% of all captures. Community structure, density, relative abundance, biomass, age structure of populations, and habitat usage of some small mammal species varied by forest type and season. The dry evergreen/mixed deciduous forest type supported a greater abundance and biomass of small mammals than the mixed deciduous/dry dipterocarp forest type in all seasons, although species richness was the same. The greatest density, biomass, and home-range size for Maxomys surijer occurred in the rainy season in both forest types. Seasonal changes in ratios of adults and subadulls of several species suggested a breeding peak at the end of the dry season or beginning of the rainy season. The mixed deciduous/dry dipterocarp forest showed a drastic drop in numbers, density, and biomass of small mammals six weeks after a fire burned through it.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1992

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References

LITERATURE CITED

Bowland, A. E. & Perrin, M. R. 1988. The effect of fire on the small mammal community in Hluhluwe Game Reserve, Zeitschrift für Saugelierkunde 53:235244.Google Scholar
Byers, C. R., Steinhorst, R. K. & Krausman, P. R. 1984. Clarification of a technique for analysis of utilization-availability data. Journal of Wildlife Management 48(3):10501053.Google Scholar
Cao, V. S., Pham, D. T., Tran, V. M., Nguyen, M. T., Kuznetsov, G. V. & KuljuklNa, M. M. 1986. Ecologie des rongeurs de forêt tropicale du Vietnam. Mammalia 50:323328.Google Scholar
Christian, D. 1977. Effect of fire on small mammal populations in a desert grassland. Journal of Mammalogy 58:423427.Google Scholar
Clark, D. A. 1982. Foraging behavior of a vertebrate omnivore (Rallus rattus): Meal structure, sampling, and diet breadth. Ecology 63:763772.Google Scholar
Crowner, A. W. & Barrett, G. W. 1979. Effects of fire on the small mammal component of an experimental grassland community. Journal of Mammalogy 60(4):803813.Google Scholar
Emmons, L. H. 1982. Ecology of Proechimys (Rodentia, Echimyidae) in south-eastern Peru. Tropical Ecology 23:280290.Google Scholar
Emmons, L. H. 1984. Geographical variation in densities and diversities of non-flying mammals in Amazonia. Biotropica 16:210222.Google Scholar
Fleming, T. H. 1970. Notes on the rodent faunas of two Panamanian forests. Journal of Mammalogy 51:473490.Google Scholar
Fleming, T. H. 1973. The number of rodent species in two Costa Rican forests. Journal of Mammalogy 54:518521.Google Scholar
Gurnell, J. & Flowerdew, J. R. 1982. Live trapping small mammals. Occasional Publication of the Mammal Society. Harvest House, Reading, Berkshire, UK. 24 pp.Google Scholar
Happold, D. C. E. & Happold, M. 1989. Demography and habitat selection of small mammals on Zomba Plateau, Malawi. Journal of Zoology, London 219:581605.Google Scholar
Harrison, J. L. 1955. Data on the reproduction of some Malayan mammals. Proceedings of the Zoological Society of London 125:445460.Google Scholar
Harrison, J. L. 1956. Survival rates of Malayan rats. Bulletin of the Raffles Museum 27:526.Google Scholar
Harrison, J. L. 1957. Habitat of some Malayan rats. Proceedings of the Zoological Society of London 128:121.Google Scholar
Harrison, J. L. 1958. Range of movement of some Malayan rats. Journal of Alammalogy 39:190206.Google Scholar
Harrison, J. L. 1961. The natural food of some Malayan mammals. Bulletin of the Motional Museum of Singapore 30:517.Google Scholar
Harrison, J. L. 1969. The abundance and population density of mammals in Malayan lowland forests. Malayan Nature Journal 22:174178.Google Scholar
Iyawe, J. G. 1989. The ecology of small mammals in Ogba Forest Reserve, Nigeria. Journal of Tropical Ecology 5:5164.Google Scholar
Kawamichi, T. & Kawamichi, M. 1979. Spatial organization and territory of tree shrews (Tupaia glis). Animal Behavior 27:381393.Google Scholar
Kemper, C. & Bell, D. T. 1985. Small mammals and habitat structure in lowland rain forest of Peninsular Malaysia. Journal of Tropical Ecology 1:522.Google Scholar
Langham, N. P. E. 1982. The ecology of the common tree shrew, Tupaia glis in peninsular Malaysia. Journal of Zoology, London 197:323344.Google Scholar
Langham, N. P. E. 1983. Distribution and ecology of small mammals in three rain forest localities of peninsular Malaysia with particular references to Kedah Peak. Biotropica 15:199206.Google Scholar
Lekagul, B. & McNeely, J. 1977. Mammals of Thailand. Association for the Conservation of Wildlife. Saha Karn Bhact Co., Bangkok, Thailand. 758 pp.Google Scholar
Lim, B. 1970. Distribution, relative abundance, food habits, and parasite patterns of giant rats (Rattus) in West Malaysia. Journal of Mammalogy 51:730740.Google Scholar
Lim, B. L. 1973. Bait preference by small mammals. Malayan Nature Journal 26:3236.Google Scholar
Mares, M. A., Ernest, K. A. & Gettinger, D. D. 1986. Small mammal community structure and composition in the Cerrado Province of central Brazil. Journal of Tropical Ecology 2:289300.Google Scholar
Marshall, J. T. 1977. Family Muridac. Pp. 397488 in Lekagul, B. & McNeely, J. (eds). Mammals of Thailand. Association for Conservation of Wildlife, Saha Karn Bhaet Co., Bangkok, Thailand, 758 pp.Google Scholar
Martin, R. D. 1982. Etatu, tree shrew? Natural History 91:2632.Google Scholar
Musser, G. G. 1979. Definition and contents of the Sundaic genus Maxomys (Rodentia, Muridae). Journal of Mammalogy 60:592606.Google Scholar
Musser, G. G. 1981. Results of the Archibold Expeditions. No. 105. Notes on the systematics of Indo-Malayan murid rodents, and descriptions of new genera and species from Ceylon, Sulawesi, and the Philippines. Bulletin of the American Museum of Natural History 168:1334.Google Scholar
Musser, G. G. & Newcombe, C. 1983. Malaysian murids and the giant rat of Sumatra. Bulletin of the American Museum of Natural History 174:329598.Google Scholar
O'Farrell, M. J. & Austin, G. T. 1978. A comparison of different trapping configurations with the assessment line technique for density estimations. Journal of Mammalogy 59:866868.Google Scholar
O'Farrell, M. J. & Kaufman, D. W. & Lundahl, D. W. 1977. Use of live-trapping with the assessment line method for density estimation. Journal of Mammalogy 58:575582.Google Scholar
Rabixowitz, A. R. & Nottingham, B. 1989. Mammal species richness and relative abundance of small mammals in a subtropical wet forest of Central America. Mammalia 53:217226.Google Scholar
Rabinowitz, A. R. & Walker, S. 1991. The carnivore community in a dry tropical forest mosaic in Huai Kha Khaeng Wildlife Sanctuary, Thailand. Journal of Tropical Ecology 7:3747.Google Scholar
Rudd, R. L. 1980. Population density and movements of the lesser gymnure, Hylomys suillus. Malayan Nature Journal 34:111112.Google Scholar
Sanderson, G. C. & Sanderson, B. C. 1964. Radio-tracking rats in Malaya – a preliminary study. Journal of Wildlife Management 28:752768.Google Scholar
Sen, Y. H. 1969. Rats from Kedah Peak (Gunung Jerai), Kedah. Malayan Nature Journal 22:5356.Google Scholar
Smith, M. H., Gardner, R. H., Gentry, J. B., Kaufman, D. W. & O'Farrell, M. H. 1975. Density estimations of small mammal populations. Pp. 2553 in Golley, F. B., Petrusewicz, K. & Ryszowski, L. (eds). Small mammals: their productivity and population dynamics. Cambridge University Press, Cambridge, 451 pp.Google Scholar
Srikosamatara, S. In press. Density and biomass of mammals in a mixed forest dominated by dry diplerocarp forest or savanna forest of western Thailand. Thai Journal of Forestry.Google Scholar
Stott, P. 1986. The spatial pattern of dry season fires in the savanna forests of Thailand. Journal of Biogeography 13:345358.Google Scholar
Stuebing, R. B. & Gasis, J. 1989. A survey of small mammals within a Sabah tree plantation in Malaysia. Journal of Tropical Ecology 5:203214.Google Scholar
Thitatummakul, P. 1985. Vegetation change along the altitudinal gradient in Huay Kha Khaeng Wildlife Sanctuary. M.S. Thesis, Kasetsart University, Bangkok.Google Scholar
Yandenbergh, J. G. 1963. Feeding, activity, and social behavior of the tree shrew (Tupaia glis), in a large outdoor enclosure. Folia Primalologica 1:199207.Google Scholar
Wiles, G. J. 1981. Abundance and habitat preferences of small mammals in southwestern Thailand. Natural History Bulletin of the Siam Society 29:4454.Google Scholar